Hele-Shaw flow

Hele-Shaw flow is defined as flow taking place between two parallel flat plates separated by a narrow gap satisfying certain conditions, named after Henry Selby Hele-Shaw, who studied the problem in 1898.^[1]^[2] Various problems in fluid mechanics can be approximated to Hele-Shaw flows and thus the research of these flows is of importance. Approximation to Hele-Shaw flow is specifically important to micro-flows. This is due to manufacturing techniques, which creates shallow planar configurations, and the typically low Reynolds numbers of micro-flows.

The conditions that needs to be satisfied are

{\frac {h}{l}}\ll 1,\qquad {\frac {Uh}{\nu }}{\frac {h}{l}}\ll 1

where $h$ is the gap width between the plates, $U$ is the characteristic velocity scale, $l$ is the characteristic length scale in directions parallel to the plate and $\nu$ is the kinematic viscosity. Specifically, the Reynolds number $Re=Uh/\nu$ need not always be small, but can be order unity or greater as long as it satisfies the condition $Re(h/l)\ll 1.$ In terms of the Reynolds number $Re_{l}=Ul/\nu$ based on $l$ , the condition becomes $Re_{l}(h/l)^{2}\ll 1.$

The governing equation of Hele-Shaw flows is identical to that of the inviscid potential flow and to the flow of fluid through a porous medium (Darcy's law). It thus permits visualization of this kind of flow in two dimensions.^[3]^[4]^[5]

^ Shaw, Henry S. H. (1898). Investigation of the nature of surface resistance of water and of stream-line motion under certain experimental conditions. Inst. N.A. OCLC 17929897.^{[page needed]}
^ Hele-Shaw, H. S. (1 May 1898). "The Flow of Water". Nature. 58 (1489): 34–36. Bibcode:1898Natur..58...34H. doi:10.1038/058034a0.
^ Hermann Schlichting,Boundary Layer Theory, 7th ed. New York: McGraw-Hill, 1979.^{[page needed]}
^ L. M. Milne-Thomson (1996). Theoretical Hydrodynamics. Dover Publications, Inc.
^ Horace Lamb, Hydrodynamics (1934).^{[page needed]}

[1] Shaw, Henry S. H. (1898). Investigation of the nature of surface resistance of water and of stream-line motion under certain experimental conditions. Inst. N.A. OCLC 17929897.^{[page needed]}

[2] Hele-Shaw, H. S. (1 May 1898). "The Flow of Water". Nature. 58 (1489): 34–36. Bibcode:1898Natur..58...34H. doi:10.1038/058034a0.

[3] Hermann Schlichting,Boundary Layer Theory, 7th ed. New York: McGraw-Hill, 1979.^{[page needed]}

[4] L. M. Milne-Thomson (1996). Theoretical Hydrodynamics. Dover Publications, Inc.

[5] Horace Lamb, Hydrodynamics (1934).^{[page needed]}

[1]

[2]

[3]

[4]

[5]